Between Christmas and New Year’s Day, here at Millard Fillmore’s Bathtub we celebrate a variety of historically holy days. December 31, by tradition, is Bright Idea Day, the anniversary of the day Thomas Edison demonstrated for the public a working light bulb, in 1879.

100,000 people gather in Times Square, New York City (surely not the 2 million predicted by NBC!) tonight, and millions more around the world, in festivities for the new year made possible by the work of Thomas Alva Edison.

Here it is, the invention that stole sleep from our grasp, made clubbing possible, and launched 50,000 cartoons about ideas:

It wasn’t the first bulb. Edison a few months earlier devised a bulb that worked with a platinum filament. Platinum was too expensive for mass production, though — and Edison wanted mass production. So, with the cadre of great assistants at his Menlo Park laboratories, he struggled to find a good, inexpensive filament that would provide adequate life for the bulb. By late December 1879 they had settled on carbon filament.

Edison invited investors and the public to see the bulb demonstrated, on December 31, 1879.

Edison’s successful bulb indicated changes in science, technology, invention, intellectual property and finance well beyond its use of electricity. For example:

Edison’s Menlo Park, New Jersey, offices and laboratory were financed with earlier successful inventions. It was a hive of inventive activity aimed to make practical inventions from advances in science. Edison was all about selling inventions and rights to manufacture devices. He always had an eye on the profit potential. His improvements on the telegraph would found his laboratory he thought, and he expected to sell the device to Western Union for $5,000 to $7,000. Instead of offering it to them at a price, however, he asked Western Union to bid on it. They bid $10,000, which Edison gratefully accepted, along with the lesson that he might do better letting the marketplace establish the price for his inventions. Other inventive labs followed Edison’s example, such as the famous Bell Labs, but few equalled his success, or had as much fun doing it. (Economics teachers: Need an example of the marketplace in action?)

Edison didn’t invent the light bulb — but his improvements on it made it commercial. “In addressing the question ‘Who invented the incandescent lamp?’ historians Robert Friedel and Paul Israel list 22 inventors of incandescent lamps prior to Joseph Wilson Swan and Thomas Edison. They conclude that Edison’s version was able to outstrip the others because of a combination of three factors: an effective incandescent material, a higher vacuum than others were able to achieve (by use of the Sprengel pump) and a high resistance lamp that made power distribution from a centralized source economically viable.”

Look around yourself this evening, and you can find a score of ways that Edison’s invention and its descendants affect your life. One of the more amusing effects is in cartooning, however. Today a glowing lightbulb is universally accepted as a nonverbal symbol for ideas and inventions. (See Mark Parisi’s series of lightbulb cartoons, “Off the Mark.”)

Even with modern, electricity-saving bulbs, the cartoon shorthand hangs on, as in this Mitra Farmand cartoon.

Brilliant cartoon from Mitra Farmand, Fluffernutter (regrettably, we note this site is no longer there; but with some hope, we find a new site here)

Or see this wonderful animation, a video advertisement for United Airlines, by Joanna Quinn for Fallon — almost every frame has the symbolic lightbulb in it.

Electrification of America, and the consequent spread of electric lighting and electrical machines to make domestic and industrial life more productive, and the spread of great public works to enable these and other inventions to spread, were made possible by a people roughly united in advancing progress, what historians now call “the progressive agenda” and the great advances of the Progressive Era.

Could we get such agreement among workers, corporate bosses and many levels of government today? When we celebrate anniversaries, like the demonstration of the light bulb, we celebrate the united polity that made such things possible, too.

Between Christmas and New Year’s Day, here at Millard Fillmore’s Bathtub we celebrate a variety of historically holy days. December 31, by tradition, is Bright Idea Day, the anniversary of the day Thomas Edison demonstrated for the public a working light bulb, in 1879.

100,000 people gather in Times Square, New York City (surely not the 1 million predicted by NBC!) tonight, and millions more around the world, in festivities for the new year made possible by the work of Thomas Alva Edison.

Here it is, the invention that stole sleep from our grasp, made clubbing possible, and launched 50,000 cartoons about ideas:

It wasn’t the first bulb. Edison a few months earlier devised a bulb that worked with a platinum filament. Platinum was too expensive for mass production, though — and Edison wanted mass production. So, with the cadre of great assistants at his Menlo Park laboratories, he struggled to find a good, inexpensive filament that would provide adequate life for the bulb. By late December 1879 they had settled on carbon filament.

Edison invited investors and the public to see the bulb demonstrated, on December 31, 1879.

Edison’s successful bulb indicated changes in science, technology, invention, intellectual property and finance well beyond its use of electricity. For example:

Edison’s Menlo Park, New Jersey, offices and laboratory were financed with earlier successful inventions. It was a hive of inventive activity aimed to make practical inventions from advances in science. Edison was all about selling inventions and rights to manufacture devices. He always had an eye on the profit potential. His improvements on the telegraph would found his laboratory he thought, and he expected to sell the device to Western Union for $5,000 to $7,000. Instead of offering it to them at a price, however, he asked Western Union to bid on it. They bid $10,000, which Edison gratefully accepted, along with the lesson that he might do better letting the marketplace establish the price for his inventions. Other inventive labs followed Edison’s example, such as the famous Bell Labs, but few equalled his success, or had as much fun doing it. (Economics teachers: Need an example of the marketplace in action?)

Edison didn’t invent the light bulb — but his improvements on it made it commercial. “In addressing the question ‘Who invented the incandescent lamp?’ historians Robert Friedel and Paul Israel list 22 inventors of incandescent lamps prior to Joseph Wilson Swan and Thomas Edison. They conclude that Edison’s version was able to outstrip the others because of a combination of three factors: an effective incandescent material, a higher vacuum than others were able to achieve (by use of the Sprengel pump) and a high resistance lamp that made power distribution from a centralized source economically viable.”

Look around yourself this evening, and you can find a score of ways that Edison’s invention and its descendants affect your life. One of the more musing effects is in cartooning, however. Today a glowing lightbulb is universally accepted as a nonverbal symbol for ideas and inventions. (See Mark Parisi’s series of lightbulb cartoons, “Off the Mark.”)

Even with modern, electricity-saving bulbs, the cartoon shorthand hangs on, as in this Mitra Farmand cartoon.

Brilliant cartoon from Mitra Farmand, Fuffernutter (regrettably, we note this site is no longer there; but with some hope, we find a new site here)

Or see this wonderful animation, a video advertisement for United Airlines, by Joanna Quinn for Fallon — almost every frame has the symbolic lightbulb in it.

Electrification of America, and the consequent spread of electric lighting and electrical machines to make domestic and industrial life more productive, and the spread of great public works to enable these and other inventions to spread, were made possible by a people roughly united in advancing progress, what historians now call “the progressive agenda” and the great advances of the Progressive Era.

Could we get such agreement among workers, corporate bosses and many levels of government today? When we celebrate anniversaries, like the demonstration of the light bulb, we celebrate the united polity that made such things possible, too.

[Today is actually the day! You may fly your flag if you choose. This is the traditional Millard Fillmore’s Bathtub Hubble Day post.]

Lift a glass of champagne today in tribute to Edwin Hubble and his great discovery. Not sure what to call it — Hubble Day, Looking Up Day, Endless Possibilities Day — whatever, this is the anniversary of Edwin Hubble’s announcement that he had discovered the universe is much, much larger than anyone had imagined, containing far more stars than anyone had dared guess.

So, today is a good day to celebrate the universe in all it’s glory – December 30. We haven’t done a good enough job of celebrating Hubble Day — we need to step up the festivities.

On December 30, 1924, Edwin Hubble announced he’d discovered other galaxies in distant space. Though it may not have been so clear at the time, it meant that, as a galaxy, we are not alone in the universe (whether we are alone as intelligent life is a separate question). It also meant that the universe is much, much bigger than most people had dared to imagine.

Hubble was the guy who showed us the universe is not only bigger than we imagined, it’s probably much bigger and much more fantastic than we can imagine. (See J. B. S. Haldane’s “queerer” quote.) Hubble is the guy who opened our imaginations to the vastness of all creation.

Hubble’s work would have been impossible without the earlier work of one of the great, unsung women of science, Henrietta Leavitt, as Wired explained:

He trained the powerful new 100-inch telescope at Mount Wilson in Southern California on spiral nebulae. These fuzzy patches of light in the sky were generally thought to be clouds of gas or dust within our galaxy, which was presumed to include everything in the universe except the Magellanic Clouds. Some nebulae seemed to contain a few stars, but nothing like the multitudes of the Milky Way.

Hubble not only found a number of stars in Andromeda, he found Cepheid variable stars. These stars vary from bright to dim, and a very smart Harvard computationist named Henrietta Leavitt had discovered in 1912 that you could measure distance with them. Given the brightness of the star and its period — the length of time it takes to go from bright to dim and back again — you could determine how far away it is.

Hubble used Leavitt’s formula to calculate that Andromeda was approximately 860,000 light years away. That’s more than eight times the distance to the farthest stars in the Milky Way. This conclusively proved that the nebulae are separate star systems and that our galaxy is not the universe.

Rearrange your Christmas/Hanukkah/KWANZAA lights in the shape of the Andromeda Galaxy — or in the shape of any of the great photos from the Hubble Telescope (Andromeda Galaxy pictured above; Hubble images here)

Spend two hours in your local library, just looking through the books on astronomy and the universe

Write a letter to your senators and congressman; tell them space exploration takes a minuscule portion of our federal budget, but it makes us dream big; tell them we need to dream big, and so they’d better make sure NASA is funded well. While you’re at it, put in a plug for funding Big Bird and the rest of public broadcasting, too. Science education in this nation more and more becomes the science shows on NPR and PBS, watched by kids who learned to read and think by watching Big Bird.

Anybody got a good recipe for a cocktail called “The Hubble?” “The Andromeda?” Put it in the comments, please. “The Hubble” should have bubbles in it, don’t you think? What was it the good monk said? He was working to make great wine, but goofed somewhere, and charged the wine with another dose of yeast. When he uncorked the very first bottle of what would come to be called champagne, Benedictine Monk Dom Pierre Perignon said “I am drinking stars!” Except, he said it in French. In any case, a Hubble cocktail should have bubbles, some of Perignon’s stars.

Edwin Hubble, long before the Surgeon General’s 1964 report on smoking made taboo photos of people smoking pipes.

In 1924, he announced the discovery of a Cepheid, or variable star, in the Andromeda Nebulae. Since the work of Henrietta Leavitt had made it possible to calculate the distance to Cepheids, he calculated that this Cepheid was much further away than anyone had thought and that therefore the nebulae was not a gaseous cloud inside our galaxy, like so many nebulae, but in fact, a galaxy of stars just like the Milky Way. Only much further away. Until now, people believed that the only thing existing outside the Milky Way were the Magellanic Clouds. The Universe was much bigger than had been previously presumed.

Later Hubble noted that the universe demonstrates a “red-shift phenomenon.” The universe is expanding. This led to the idea of an initial expansion event, and the theory eventually known as Big Bang.

Hubble’s life offered several surprises, and firsts:

Hubble was a tall, elegant, athletic, man who at age 30 had an undergraduate degree in astronomy and mathematics, a legal degree as a Rhodes scholar, followed by a PhD in astronomy. He was an attorney in Kentucky (joined its bar in 1913), and had served in WWI, rising to the rank of major. He was bored with law and decided to go back to his studies in astronomy.

In 1919 he began to work at Mt. Wilson Observatory in California, where he would work for the rest of his life. . . .

Hubble wanted to classify the galaxies according to their content, distance, shape, and brightness patterns, and in his observations he made another momentous discovery: By observing redshifts in the light wavelengths emitted by the galaxies, he saw that galaxies were moving away from each other at a rate constant to the distance between them (Hubble’s Law). The further away they were, the faster they receded. This led to the calculation of the point where the expansion began, and confirmation of the big bang theory. Hubble calculated it to be about 2 billion years ago, but more recent estimates have revised that to 20 billion years ago.

An active anti-fascist, Hubble wanted to joined the armed forces again during World War II, but was convinced he could contribute more as a scientist on the homefront. When the 200-inch telescope was completed on Mt. Palomar, Hubble was given the honor of first use. He died in 1953.

“Equipped with his five senses, man explores the universe around him and calls the adventure Science.”

Andromeda as we can see it today. Wikimedia image: The Andromeda Galaxy is a spiral galaxy approximately 2.5 million light-years away in the constellation Andromeda. The image also shows Messier Objects 32 and 110, as well as NGC 206 (a bright star cloud in the Andromeda Galaxy) and the star Nu Andromedae. This image was taken using a hydrogen-alpha filter.

How many ways can we say happy birthday to a great scientist born on Pi Day? So, an encore post.

E=energy; m=mass; c=speed of light

Happy Einstein Day! to us. Albert’s been dead since 1955 — sadly for us. Our celebrations now are more for our own satisfaction and curiosity, and to honor the great man — he’s beyond caring.

Almost fitting that he was born on π Day, no? I mean, is there an E=mc² Day? He’s 138 years old today, and famous around the world for stuff that most people still don’t understand.

Fittingly, perhaps, March 14 now is celebrated as Pi Day, in honor of that almost magical number, Pi, used to calculate the circumference of a circle. Pi is 3. 1415~, and so the American date 3/14 got tagged as Pi Day.

Albert Einstein was born on March 14, 1879, in Ulm, Germany, to Hermann and Pauline Einstein.

26 years later, three days after his birthday, he sent off the paper on the photo-electric effect; that paper would win him the Nobel Prize in Physics in 1921.

In that same year of 1905, he published three other papers, solving the mystery of Brownian motion, describing what became known as the Special Theory of Relativity and solving the mystery of why measurements of the light did not show any effects of motion as Maxwell had predicted, and a final paper that noted a particle emitting light energy loses mass. This final paper amused Einstein because it seemed so ludicrous in its logical extension that energy and matter are really the same stuff at some fundamental point, as expressed in the equation demonstrating an enormous amount of energy stored in atoms, E=mc².

Albert Einstein as a younger man – Nobel Foundation image

Any one of the papers would have been a career-capper for any physicist. Einstein dashed them all off in just a few months, forever changing the fields of physics. And, you noticed: Einstein did not win a Nobel for the Special Theory of Relativity, nor for E=mc². He won it for the photo-electric effect. Irony in history. Nobel committee members didn’t understand Einstein’s other work much better than the rest of us today.

117 years later, Einstein’s work affects us every day. Relativity theory at some level I don’t fully understand makes possible the use Global Positioning Systems (GPS), which revolutionized navigation and mundane things like land surveying and microwave dish placement.

Development of nuclear power both gives us hope for an energy-rich future, and gives us fear of nuclear war. Sometimes, even the hope of the energy rich future gives us fear, as we watch and hope nuclear engineers can control the piles in nuclear power plants damaged by earthquakes and tsunami in Japan.

Albert Einstein on a 1966 US stamp (Photo credit: Wikipedia)

If Albert Einstein was a genius at physics, he was more dedicated to pacifism. He resigned his German citizenship to avoid military conscription. His pacifism made the German Nazis nervous; Einstein fled Germany in the 1930s, eventually settling in the United States. In the U.S., he was persuaded by Leo Szilard to write to President Franklin Roosevelt to suggest the U.S. start a program to develop an atomic weapon, because Germany most certainly was doing exactly that. But while urging FDR to keep up with the Germans, Einstein refused to participate in the program himself, sticking to his pacifist views. Others could, and would, design and build atomic bombs. (Maybe it’s a virus among nuclear physicists — several of those working on the Manhattan Project were pacifists, and had great difficulty reconciling the idea that the weapon they worked on to beat Germany, was deployed on Japan, which did not have a nuclear weapons program.)

Einstein was a not-great father, and probably not a terribly faithful husband at first — though he did think to give his first wife, in the divorce settlement, a share of a Nobel Prize should he win it. Einstein was a good violinist, a competent sailor, an incompetent dresser, and a great character.

His sister suffered a paralyzing stroke. For many months Albert spent hours a day reading to her the newspapers and books of the day, convinced that though mute and appearing unconscious, she would benefit from hearing the words. He said he did not hold to orthodox religions, but could there be a greater show of faith in human spirit?

Einstein in 1950, five years before his death

When people hear clever sayings, but forget to whom the bon mots should be attributed, Einstein is one of about five candidates to whom all sorts of things are attributed, though he never said them. (Others include Lincoln, Jefferson, Mark Twain and Will Rogers). Einstein is the only scientist in that group. So, for example, we can be quite sure Einstein never claimed that compound interest was the best idea of the 20th century. This phenomenon is symbolic of the high regard people have for the man, even though so few understand what his work was, or meant.

A most interesting man. A most important body of work. He deserves more study and regard than he gets, in history, diplomacy and science.

[Today is actually the day! You may fly your flag if you choose. This is the traditional Millard Fillmore’s Bathtub Hubble Day post.]

Lift a glass of champagne today in tribute to Edwin Hubble and his great discovery. Not sure what to call it — Hubble Day, Looking Up Day, Endless Possibilities Day — whatever, this is the anniversary of Edwin Hubble’s announcement that he had discovered the universe is much, much larger than anyone had imagined, containing far more stars than anyone had dared guess.

So, today is a good day to celebrate the universe in all it’s glory – December 30.

On December 30, 1924, Edwin Hubble announced he’d discovered other galaxies in distant space. Though it may not have been so clear at the time, it meant that, as a galaxy, we are not alone in the universe (whether we are alone as intelligent life is a separate question). It also meant that the universe is much, much bigger than most people had dared to imagine.

Hubble was the guy who showed us the universe is not only bigger than we imagined, it’s probably much bigger and much more fantastic than we can imagine. (See J. B. S. Haldane’s “queerer” quote.) Hubble is the guy who opened our imaginations to the vastness of all creation.

Hubble’s work would have been impossible without the earlier work of one of the great, unsung women of science, Henrietta Leavitt, as Wired explained:

He trained the powerful new 100-inch telescope at Mount Wilson in Southern California on spiral nebulae. These fuzzy patches of light in the sky were generally thought to be clouds of gas or dust within our galaxy, which was presumed to include everything in the universe except the Magellanic Clouds. Some nebulae seemed to contain a few stars, but nothing like the multitudes of the Milky Way.

Hubble not only found a number of stars in Andromeda, he found Cepheid variable stars. These stars vary from bright to dim, and a very smart Harvard computationist named Henrietta Leavitt had discovered in 1912 that you could measure distance with them. Given the brightness of the star and its period — the length of time it takes to go from bright to dim and back again — you could determine how far away it is.

Hubble used Leavitt’s formula to calculate that Andromeda was approximately 860,000 light years away. That’s more than eight times the distance to the farthest stars in the Milky Way. This conclusively proved that the nebulae are separate star systems and that our galaxy is not the universe.

Rearrange your Christmas/Hanukkah/KWANZAA lights in the shape of the Andromeda Galaxy — or in the shape of any of the great photos from the Hubble Telescope (Andromeda Galaxy pictured above; Hubble images here)

Spend two hours in your local library, just looking through the books on astronomy and the universe

Write a letter to your senators and congressman; tell them space exploration takes a minuscule portion of our federal budget, but it makes us dream big; tell them we need to dream big, and so they’d better make sure NASA is funded well. While you’re at it, put in a plug for funding Big Bird and the rest of public broadcasting, too. Science education in this nation more and more becomes the science shows on NPR and PBS, watched by kids who learned to read and think by watching Big Bird.

Anybody got a good recipe for a cocktail called “The Hubble?” “The Andromeda?” Put it in the comments, please. “The Hubble” should have bubbles in it, don’t you think? What was it the good monk said? He was working to make great wine, but goofed somewhere, and charged the wine with another dose of yeast. When he uncorked the very first bottle of what would come to be called champagne, Benedictine Monk Dom Pierre Perignon said “I am drinking stars!” Except, he said it in French. In any case, a Hubble cocktail should have bubbles, some of Perignon’s stars.

Edwin Hubble, long before the Surgeon General’s 1964 report on smoking made taboo photos of people smoking pipes.

In 1924, he announced the discovery of a Cepheid, or variable star, in the Andromeda Nebulae. Since the work of Henrietta Leavitt had made it possible to calculate the distance to Cepheids, he calculated that this Cepheid was much further away than anyone had thought and that therefore the nebulae was not a gaseous cloud inside our galaxy, like so many nebulae, but in fact, a galaxy of stars just like the Milky Way. Only much further away. Until now, people believed that the only thing existing outside the Milky Way were the Magellanic Clouds. The Universe was much bigger than had been previously presumed.

Later Hubble noted that the universe demonstrates a “red-shift phenomenon.” The universe is expanding. This led to the idea of an initial expansion event, and the theory eventually known as Big Bang.

Hubble’s life offered several surprises, and firsts:

Hubble was a tall, elegant, athletic, man who at age 30 had an undergraduate degree in astronomy and mathematics, a legal degree as a Rhodes scholar, followed by a PhD in astronomy. He was an attorney in Kentucky (joined its bar in 1913), and had served in WWI, rising to the rank of major. He was bored with law and decided to go back to his studies in astronomy.

In 1919 he began to work at Mt. Wilson Observatory in California, where he would work for the rest of his life. . . .

Hubble wanted to classify the galaxies according to their content, distance, shape, and brightness patterns, and in his observations he made another momentous discovery: By observing redshifts in the light wavelengths emitted by the galaxies, he saw that galaxies were moving away from each other at a rate constant to the distance between them (Hubble’s Law). The further away they were, the faster they receded. This led to the calculation of the point where the expansion began, and confirmation of the big bang theory. Hubble calculated it to be about 2 billion years ago, but more recent estimates have revised that to 20 billion years ago.

An active anti-fascist, Hubble wanted to joined the armed forces again during World War II, but was convinced he could contribute more as a scientist on the homefront. When the 200-inch telescope was completed on Mt. Palomar, Hubble was given the honor of first use. He died in 1953.

“Equipped with his five senses, man explores the universe around him and calls the adventure Science.”

Andromeda as we can see it today. Wikimedia image: The Andromeda Galaxy is a spiral galaxy approximately 2.5 million light-years away in the constellation Andromeda. The image also shows Messier Objects 32 and 110, as well as NGC 206 (a bright star cloud in the Andromeda Galaxy) and the star Nu Andromedae. This image was taken using a hydrogen-alpha filter.

How many ways can we say happy birthday to a great scientist born on Pi Day? So, an encore post.

E=energy; m=mass; c=speed of light

Happy Einstein Day! to us. Albert’s been dead since 1955 — sadly for us. Our celebrations now are more for our own satisfaction and curiosity, and to honor the great man — he’s beyond caring.

Almost fitting that he was born on π Day, no? I mean, is there an E=mc² Day?

Albert Einstein was born on March 14, 1879, in Ulm, Germany, to Hermann and Pauline Einstein.

26 years later, three days after his birthday, he sent off the paper on the photo-electric effect; that paper would win him the Nobel Prize in Physics in 1921.

In that same year of 1905, he published three other papers, solving the mystery of Brownian motion, describing what became known as the Special Theory of Relativity and solving the mystery of why measurements of the light did not show any effects of motion as Maxwell had predicted, and a final paper that noted a particle emitting light energy loses mass. This final paper amused Einstein because it seemed so ludicrous in its logical extension that energy and matter are really the same stuff at some fundamental point, as expressed in the equation demonstrating an enormous amount of energy stored in atoms, E=mc².

Albert Einstein as a younger man – Nobel Foundation image

Any one of the papers would have been a career-capper for any physicist. Einstein dashed them off in just a few months, forever changing the fields of physics. And, you noticed: Einstein did not win a Nobel for the Special Theory of Relativity, nor for E=mc². He won it for the photo electric effect. Irony in history.

106 years later Einstein’s work affects us every day. Relativity theory at some level I don’t understand makes possible the use Global Positioning Systems (GPS), which revolutionized navigation and mundane things like land surveying and microwave dish placement. Development of nuclear power both gives us hope for an energy-rich future, and gives us fear of nuclear war. Sometimes, even the hope of the energy rich future gives us fear, as we watch and hope nuclear engineers can control the piles in nuclear power plants damaged by earthquakes and tsunami in Japan.

Albert Einstein on a 1966 US stamp (Photo credit: Wikipedia)

If Albert Einstein was a genius at physics, he was more dedicated to pacifism. He resigned his German citizenship to avoid military conscription. His pacifism made the German Nazis nervous; Einstein fled Germany in the 1930s, eventually settling in the United States. In the U.S., he was persuaded by Leo Szilard to write to President Franklin Roosevelt to suggest the U.S. start a program to develop an atomic weapon, because Germany most certainly was doing exactly that. But while urging FDR to keep up with the Germans, Einstein refused to participate in the program himself, sticking to his pacifist views. Others could, and would, design and build atomic bombs. (Maybe it’s a virus among nuclear physicists — several of those working on the Manhattan Project were pacifists, and had great difficulty reconciling the idea that the weapon they worked on to beat Germany, was deployed on Japan, which did not have a nuclear weapons program.)

Einstein was a not-great father, and probably not a terribly faithful husband at first — though he did think to give his first wife, in the divorce settlement, a share of a Nobel Prize should he win it. Einstein was a good violinist, a competent sailor, an incompetent dresser, and a great character. His sister suffered a paralyzing stroke. For many months Albert spent hours a day reading to her the newspapers and books of the day, convinced that though mute and appearing unconscious, she would benefit from hearing the words. He said he did not hold to orthodox religions, but could there be a greater show of faith in human spirit?

Einstein in 1950, five years before his death

When people hear clever sayings, but forget to whom the bon mots should be attributed, Einstein is one of about five candidates to whom all sorts of things are attributed, though he never said them. (Others include Lincoln, Jefferson, Mark Twain and Will Rogers). Einstein is the only scientist in that group. So, for example, we can be quite sure Einstein never claimed that compound interest was the best idea of the 20th century. This phenomenon is symbolic of the high regard people have for the man, even though so few understand what his work was, or meant.

A most interesting man. A most important body of work. He deserves more study and regard than he gets.

Between Christmas and New Year’s Day, here at Millard Fillmore’s Bathtub we celebrate a variety of historically holy days. December 31, by tradition, is Bright Idea Day, the anniversary of the day Thomas Edison demonstrated for the public a working light bulb, in 1879.

100,000 people gather in Times Square, New York City (surely not the 1 million predicted by NBC!) tonight, and millions more around the world, in festivities for the new year made possible by the work of Thomas Alva Edison.

Here it is, the invention that stole sleep from our grasp, made clubbing possible, and launched 50,000 cartoons about ideas:

It wasn’t the first bulb. Edison a few months earlier devised a bulb that worked with a platinum filament. Platinum was too expensive for mass production, though — and Edison wanted mass production. So, with the cadre of great assistants at his Menlo Park laboratories, he struggled to find a good, inexpensive filament that would provide adequate life for the bulb. By late December 1879 they had settled on carbon filament.

Edison invited investors and the public to see the bulb demonstrated, on December 31, 1879.

Edison’s successful bulb indicated changes in science, technology, invention, intellectual property and finance well beyond its use of electricity. For example:

Edison’s Menlo Park, New Jersey, offices and laboratory were financed with earlier successful inventions. It was a hive of inventive activity aimed to make practical inventions from advances in science. Edison was all about selling inventions and rights to manufacture devices. He always had an eye on the profit potential. His improvements on the telegraph would found his laboratory he thought, and he expected to sell the device to Western Union for $5,000 to $7,000. Instead of offering it to them at a price, however, he asked Western Union to bid on it. They bid $10,000, which Edison gratefully accepted, along with the lesson that he might do better letting the marketplace establish the price for his inventions. Other inventive labs followed Edison’s example, such as the famous Bell Labs, but few equalled his success, or had as much fun doing it. (Economics teachers: Need an example of the marketplace in action?)

Edison didn’t invent the light bulb — but his improvements on it made it commercial. “In addressing the question ‘Who invented the incandescent lamp?’ historians Robert Friedel and Paul Israel list 22 inventors of incandescent lamps prior to Joseph Wilson Swan and Thomas Edison. They conclude that Edison’s version was able to outstrip the others because of a combination of three factors: an effective incandescent material, a higher vacuum than others were able to achieve (by use of the Sprengel pump) and a high resistance lamp that made power distribution from a centralized source economically viable.”

Look around yourself this evening, and you can find a score of ways that Edison’s invention and its descendants affect your life. One of the more musing effects is in cartooning, however. Today a glowing lightbulb is universally accepted as a nonverbal symbol for ideas and inventions. (See Mark Parisi’s series of lightbulb cartoons, “Off the Mark.”)

Even with modern, electricity-saving bulbs, the cartoon shorthand hangs on, as in this Mitra Farmand cartoon.

Brilliant cartoon from Mitra Farmand, Fuffernutter (regrettably, we note this site is no longer there; but with some hope, we find a new site here)

Or see this wonderful animation, a video advertisement for United Airlines, by Joanna Quinn for Fallon — almost every frame has the symbolic lightbulb in it.

Electrification of America, and the consequent spread of electric lighting and electrical machines to make domestic and industrial life more productive, and the spread of great public works to enable these and other inventions to spread, were made possible by a people roughly united in advancing progress, what historians now call “the progressive agenda” and the great advances of the Progressive Era.

Could we get such agreement among workers, corporate bosses and many levels of government today? When we celebrate anniversaries, like the demonstration of the light bulb, we celebrate the united polity that made such things possible, too.

Dead Link?

We've been soaking in the Bathtub for several months, long enough that some of the links we've used have gone to the Great Internet in the Sky.
If you find a dead link, please leave a comment to that post, and tell us what link has expired.
Thanks!